Abstract
Fibroblasts in the synovial membrane secrete molecules essential to forming the extracellular matrix (ECM) and supporting joint homeostasis. While evidence suggests that fibroblasts contribute to the response to joint injury, the outcomes appear to be patient-specific and dependent on interactions between resident immune cells, particularly macrophages (Mφs). On the other hand, the response of Mφs to injury depends on their functional phenotype. The goal of these studies was to further explore these issues in an in vitro 3D microtissue model that simulates a pathophysiological disease-specific microenvironment. Two sources of fibroblasts were used to assess patient-specific influences: mesenchymal stem cell (MSC)- and induced pluripotent stem cell (iPSC)-derived fibroblasts. These were co-cultured with either M1 or M2 Mφs, and the cultures were challenged with polyethylene particles coated with lipopolysaccharide (cPE) to model wear debris generated from total joint arthroplasties. Our results indicated that the fibroblast response to cPE was dependent on the source of the fibroblasts and the presence of M1 or M2 Mφs: the fibroblast response as measured by gene expression changes was amplified by the presence of M2 Mφs. These results demonstrate that the immune system modulates the function of fibroblasts; furthermore, different sources of differentiated fibroblasts may lead to divergent results. Overall, our research suggests that M2 Mφs may be a critical target for the clinical treatment of cPE induced fibrosis.
Highlights
When Mφs were co-cultured with induced pluripotent stem cell (iPSC)-Fs, coated with lipopolysaccharide (cPE) associated with increases in both the pro-inflammatory cytokine IL1β and anti-inflammatory cytokine C motif chemokine ligand 13 (CCL13) was expressed when M1 Mφs were co-cultured with iPSC-Fs
Wear debris polyethylene particles adversely affect the function of fibroblasts and increase the risk of fibrosis after joint arthroplasty
Our results demonstrated that co-culture of mesenchymal stem cell (MSC)-Fs and iPSC-Fs with M2 Mφs in the presence of cPE activated the expression of fibroblast functional markers
Summary
Total joint arthroplasty (TJA) is a highly successful surgical procedure, approximately 3–10% of individuals develop chronic inflammation and fibrosis of the synovial membrane post-TJA [1]. The hallmark of fibrosis includes aberrant deposition of collagen and expression of α-smooth muscle actin (α-SMA) and immune cell infiltration [2,3]. These biological processes alter the normal biochemical composition and functional state of the stroma. Fibrosis and chronic inflammation of the synovium after joint replacement reduces joint motion and adversely affects quality of life [4]
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